SU1548624A1 - Heat-pump installation for air heating, cooling and hot-water supply with heat recuperation and accumulation - Google Patents

Abstract

The invention relates to refrigeration, and more specifically to vapor compression units for the combined production of cold and heat. The purpose of the invention is to reduce energy consumption and increase reliability during autonomous operation of the installation. For this, the heat pump installation contains a ground collector 1 and (or) a liquid-air heat exchanger 5 with a heat carrier in the form of a liquid with a low freezing point, which is fed into circulation tank 12 via circulation pumps 2 and 6 with the help of circulation pumps 2 and 6. heat carrier circuits, three of which transfer heat perceived by the collector and the liquid-air heat exchanger and accumulated in the storage tank 12, to at least two refrigerant circuits 17 and 18 of the heat pump units the heating and cooling of the room and one refrigeration cycle 35, and the other two circuits are supplied to the heat accumulator tank 12 recuperated by air-liquid heat exchanger 13 heat of air removed from the room due to hygiene requirements and heat of fuel burned in the furnace 9 for heating and hot water supply in case of accidents of refrigeration circuits 17 and 18 of heat pump units, either in the ground collector 1, or in a liquid-air heat exchanger 5. 1 sludge.

Description

genomic installation work. For this purpose, the heat pump installation contains a ground collector 1 and (or) heat exchange — liquid-air nickname 5 from the heat carrier in the form of a liquid with a low freezing point, which is fed into the storage tank 12 by means of circulation pumps 2 and 6; which are connected six circulating coolant coolant KOH, three of which exchange heat, perceived by a col-, lecturer and liquid-heat exchanger (air and accumulated in the bath-heat-1 accumulator 12), to at least two Refrigeration circuits 17 and 18 heat pump units Heating and cooling of the room and one refrigeration cycle 35, and the other two circuits are supplied to the tank-heat accumulator, to the heat exchanger 12, recovered by the air-liquid heat exchanger 13, to the heat of the air removed from the room according to hygiene requirements, and to the heat of the fuel burned 9 for the purpose of heating and hot water supply in case of accidents of refrigeration circuits 17 and 18 of heat pump units, either in the ground collector 1, or in a liquid-air heat exchanger 5. 1 sludge.

The invention relates to a cooling technique, in particular, to cooling (air-conditioning) installations for an air-fca room and to combined heat and power pumps for the complex Heat and cold production.

The aim of the invention is to reduce power consumption and increase reliability during autonomous operation of the plant.

The drawing shows a principal (on the diagram of the heat pump installation.

By means of the installation, air cooling, heating, and hot water supply to the premises are carried out with the transformation for this purpose, of the heat of the ground, of the solar radiation, of the heat of the air removed from the room. for hygienic exhaust ventilation, and use for heating and hot water supply the heat of fuel burned in the furnace in the absence of power supply to the heat pump installation or. accidents in collectors, in heat pump units of heating and water heaters.

The heat pump installation contains a soil collector 1 with a circulation pump 2 heat carriers and shut-off valves 3 and 4, a heat exchanger liquid-air 5 with a circulation pump 6 and shut-off valves 7 and a furnace 9 with a heat exchanger of heat due to the heat of combustion of a solid, liquid or gaseous fuels with shut-off valves 10 and 11,

heat accumulator tank 12, air-liquid heat exchanger 13 with a fan, utilizing the heat of air removed from the room according to the hygienic requirements of the exhaust fan 1- with the additional circulation pump 14 and shut-off valves 15 and 16, cooling circuits heat pump air heating and cooling units 17 and 18, included in the coolant network, respectively, shut-off valves 19, 20 and 21, 22, each of which contains a coolant-liquid heat exchanger 23, with a circulating pump 24 heat carrier, droplets cooling device 25 heat exchanger refrigerant - air 26 with a fan, four-way valve 27 and compressor 28, space heating batteries 29 and 30, included in the coolant network, respectively, shut-off valves 31.32 and 33.34, refrigeration cycle 35, included in the coolant network shut-off valves 36 and 37 - in heating and / or water-heating mode using a furnace; shut-off valves 38 and 39 in a heat-pumping mode, consisting of a liquid-to-liquid heat exchanger 40 with a circulation pump 41; Drossel 42 coolant, a coolant heat exchanger nt - water 43 and the liquid - water 44 placed in a thermally insulated DHW cylinder 45, the compressor 46, the cold water inlet pipe 47 and outlet 48 of the hot water, the control unit 49 automatically. one

Teilonasosia installation works as follows.

In the air heating mode, when the automatic control unit 49 provides for switching of the four-way valves 27 of the heat pump heating and cooling units to the position shown in the diagram by solid lines, the coolant of the soil collector-jQ or 19-22 is supplied to the heat exchangers pa 1 from the storage tank of the torus 12, the coolant is a liquid 23, where the pumps are circulated through the heating pumps 24 due to its heating due to condensation; the closed shut-off valves 19-22 supply the vapor-compressed compressors 28 to the heat exchangers; one that perceives at low capacity 23, where boiling is carried out at one temperature in the coolant heat exchangers at a low temperature, which perceives the heat carrier heat at the same time. Next, refrigerant vapors are compressed in compressors 28 with an increase of 20

temperatures and are supplied to the heat exchanger refrigerant-air 26, where, condensing, the room air is heated.

The heat of the air removed from the room on the basis of hygienic requirements is perceived by the cooled ground collector coolant supplied to the regenerative heat exchanger air - liquid 13 installed in the exhaust ventilation duct by the circulating pump 14 from the bottom of the tank-accumulator 12. Heated in the heat exchanger air - liquid 13 of the coolant is supplied to the upper part of the tank of the heat accumulator - torus 12. When the coolant in the tank tegatoaccumulator 12 is cooled in the process of space heating and water heating a temperature-controlled automatic control unit 49, is included a circulating pump 2 or 6, feeding into the tank-heat accumulator 12, the heat medium passes the obligation sensed ground heat or solar radiation, depending on whether the temperature is higher cocoa or ground heat medium of the solar collector. At the same time, the temperature of the coolant in the tank-heat accumulator 12 rises to the value controlled by the automatic control unit -49, and after reaching which the circulation pumps 2 or 6 are automatically turned off. In the process of heating and water heating, such fluctuations in temperature,., Consumption. the coolant in the tank-heat accumulator-torus 12 periodically repeats.

In the air cooling mode, when the automatic control unit 49

the coolant is air 26 the heat of the room air, cooling it. When the heat carrier is heated in the heat accumulator tank 12, in the process of cooling the room to a temperature controlled by the automatic control unit 41, a circulation pump 2 or 6 is turned on, supplying heat carrier heat to the heat accumulator to the heat of the ground or solar radiation, depending on As the temperature is less, the soil or heat carrier of the solar collector. In this case, the temperature of the coolant in the tank-heat accumulator-30 l torus 12 is reduced to a value controlled by the automatic control unit 49, and after reaching which the circulation pumps 2 or 6 are automatically turned off. In the process of cooling (conditioning) a room, such fluctuations in the temperature of the heat transfer medium in the accumulator are periodically repeated.

In the air heating mode in one of the rooms and cooling in the other room, the operation of the heat pump units occurs as described, but more economically and with smaller fluctuations in the temperature of the heat carrier in the heat-storage battery, since the heat pump unit operating in the air mode heating cools the heat carrier in the heat accumulator, and the heat pump unit operating in the .50 cooling mode of the room heats the heat carrier in the heat accumulator, raising its temperature, the heat pump conversion ratio installation, and therefore reduces its energy

35

40

B RS; ms chrondona heating cycle 5 tr. ngformes the heat of the heat exchanger –th 1 of chetoaccumulum of torus 12 by

obstructs the switching of the four-way valves 27 of the heat pump units 17 and 18 of heating and air conditioning to the position shown in the diagram by dashed lines, the heat carrier

the soil collector 1 from the tank-battery 12 by circulation pumps 24 through open shut-off valves or 19-22 is fed to the heat exchangers coolant-liquid 23, where rsal is heated by condensation of compressors compressed by compressors 28 - $ boiling in heat exchangers 20

consumption.

the coolant is air 26 the heat of the room air, cooling it. When the heat carrier is heated in the heat accumulator tank 12, in the process of cooling the room to a temperature controlled by the automatic control unit 41, a circulation pump 2 or 6 is turned on, supplying heat carrier heat to the heat accumulator to the heat of the ground or solar radiation, depending on As the temperature is less, the soil or heat carrier of the solar collector. In this case, the temperature of the coolant in the tank-heat accumulator-30 l torus 12 is reduced to a value controlled by the automatic control unit 49, and after reaching which the circulation pumps 2 or 6 are automatically turned off. In the process of cooling (conditioning) a room, such fluctuations in the temperature of the heat transfer medium in the accumulator are periodically repeated.

In the air heating mode in one of the rooms and cooling in the other room, the operation of the heat pump units occurs as described, but more economically and with smaller fluctuations in the temperature of the heat carrier in the heat-accumulator, because the heat pump unit operating in the air mode cooling cools the coolant in the heat accumulator, and the heat pump unit operating in room cooling mode 0 heats the heat carrier in the heat accumulator, raising its temperature, the heat pump conversion coefficient installation, and therefore reduces its energy

35

0

consumption.

B RS; ms chrondona heating cycle 5 tr. ngformes the heat of the heat exchanger –th 1 of chetoaccumulum of torus 12 by

715/48624

its absorption in the liquid-coolant AO heat exchanger, connected in series with the circulation pump 41, which feeds the coolant from the heat-storage tank 12 through the open shut-off valves 38 and 39. The heat-absorber heat absorption in the heat-exchanger liquid-coolant 40

15

It is carried out at low-temperature JQ exhaust ventilation, due to boiling of the refrigerant, the vapors of which are then compressed by the compressor 46 with increasing temperature and fed to the refrigerant-water heat exchanger 43, condensing in it and returning heat to the heated water in the heat-insulated tank-heater 45. The water is heated from the water tank 45 through the hot water pipeline 48 to the intake point. Cold water is supplied to the bottom of the water tank 45 by the cold water pipe 47. The temperatures of the water heated in the water tank 45 are stabilized and the required temperature in the rooms is ensured by periodically turning on and off the circulation pumps 24 in the electrical network and 41 fans of heat exchangers 26 of refrigeration circuits 17 and 18 and refrigeration cycle 35.

20

25

thirty

simultaneous use, if this is dictated by the consumer, of different modes of heat pump units of air heating and cooling, when one of them cools the coolant in the heat accumulator, and the other heats it, preventing it from

temperature potential, for. by the choice of the automatic control unit of the ground or solar collector with the highest temperature of the heat carrier, which generally reduces the temperature difference between the room and the heat carrier, the heated water in the water heater and the heat carrier, in proportion to which the amount of power consumed by the pump unit from the power grid is reduced.

The use of a heat pump installation allows to increase the reliability of heating, cooling and water heating through parallel operation, at least two heat pump units of air heating and cooling of one water heating unit installed in different rooms, as well as to increase the reliability of heating and water heating during accidents ground collectors, solar collectors, accidents of heat pump units of air heating and cooling, wadheating, as well as in the absence of power supply of the heat pump installation due to real heating and water heating regimes using the heat energy of solid, liquid or gaseous fuel that is burned in the furnace.

In the modes of heating and (or) water heating due to the use of heat 35 of solid, liquid or gaseous fuel in the furnace 9, realized in the absence of power supply to the heat pumping unit, accidents in the contours of the ground collector 1, heat is 40 fluid-air accidents of refrigeration circuits 17 and 18, heating of the room is produced by heat transfer to heating batteries x 29 and 30, connected to the heat supply network of 45 bodies by shut-off valves 31.32 and 33, 34% of thermal energy from the heat carrier to heated room air, water heating about exists by heat transfer to the heated water heat exchange, - liquid nickname - water 44 heat carrier heat, connected to the heat carrier network by shut-off valves 36 and 37. In heating and (or) water heating modes, by using the heat-generating circuit of the heat pump blots of solid, liquid or gaseous

the first fuel burned in the furnace 9, the shut-off valves 3, 4, 7, 8, 10, 11, 15, 16, 19-22, 38 and 39 are closed and the heating and cooling circus from the series-connected heat exchanger refrigerant is a liquid with a connected one circulation circuit hep8

cool pumps 2, 6, 14, 24 and 41 are turned off.

Heat pump installation allows to reduce the consumption of heat pump installation of electricity due to heat recovery of air with high temperature potential, removed from the room for hygienic needs.

five

exhaust ventilation due to

0

five

0

5 0 5 -

simultaneous use, if this is dictated by the consumer, of different modes of heat pump units of air heating and cooling, when one of them cools the coolant in the heat accumulator, and the other heats it, preventing it from

temperature potential, for. the choice of the automatic control unit of the ground or solar collector with the highest coolant temperature, which generally reduces the temperature difference between the room and the coolant, the heated water in the water heater and the coolant, which is proportional to the amount of power consumed by the heat pump installation from the mains.

The use of heat pump installation allows to increase the reliability of heating, cooling and water heating due to parallel operation, at least two heat pump air heating blocks and cooling of one water heating block installed in different rooms, as well as to increase the reliability of heating and water heating during accidents ground collectors, solar collectors, accidents of heat pump units of air heating and cooling, wadheating, as well as in the absence of power supply to the heat pump installation due to re tion of heating and water heating mode using the thermal energy of the solid, liquid or gaseous fuel combusted in the furnace.

Claims (1)

Invention Formula Heat pump installation of air heating, cooling and hot water supply with heat recovery and heat accumulation, containing heating and cooling from a series-connected heat exchanger coolant — a liquid with a circulation circuit connected to it, containing a ground collector, a circulation pump, supplying and discharging heat-insulated pipelines, a throttling device, a heat exchanger refrigerant — air with a fan and a four-way valve, compressor, and automatic control unit, characterized in that, in order to reduce energy consumption and increase reliability during autonomous operation, It is additionally equipped with heat-insulated tank-heat accumulator, tank, water heater and neck with additional circulation circuits, the ground collector is connected to the upper and bottom parts of the tank-heat accumulator, 20 k, respectively. which, in turn, are connected to the discharge and supply heat-insulated pipelines of additional circulation loops, the first of which contains a liquid-25 heat exchanger air, second and third - circulating pump with a series-connected heat exchanger refrigerant-liquid, connected by refrigerant pipes, respectively, into one and the other cooling circuits of heat pump heating units, the fourth — two circulation branches connected in parallel to the stop valves, one of which contains a liquid heat exchanger - water, placed in a tank-water heater, and the second - a circulation pump with a series-connected liquid-coolant heat exchanger, connected by coolant nozzles coagulant in the refrigeration cycle after the choke, fifth - a series connection of an additional shut-off valve E circulation pump and a heat exchanger air - liquid, mounted in the duct an exhaust ventilation, and the sixth - placed in a furnace heating a liquid heat exchanger.